Ethnoveterinary medicinal plants and their utilization by the people of Soro District, Hadiya Zone, southern Ethiopia

Background Ethnoveterinary studies are important to maintain the sustainability of livestock health and support people’s livelihoods through the provision of food, maintaining livestock health, and other biological resources. This study was carried out in Soro District, southern Ethiopia, to identify, document and analyse plant species with ethnoveterinary uses along with the associated indigenous and local knowledge. Materials and methods Informants were selected using purposive (key informants) and systematic random sampling (general informants) methods. Data on ethnoveterinary plants and their uses were collected through semi-structured interviews, guided field walks, 13 focus group discussions with five to seven members in each and participant observation. Informant consensus factor and fidelity level were computed to identify the most common livestock ailment categories and the best plant species with ethnoveterinary use, respectively. Preference ranking methods were used to identify the potentially effective ethnoveterinary medicinal plants for the most frequently reported livestock ailments. The use diversity of multipurpose plants with ethnoveterinary importance was analysed using the analytical methods of ethnobotany including priority ranking, comparisons and important indices. The T-test statistic was used to compare knowledge differences among different social groups. Results A total of 132 plant species in 120 genera and 61 families were reported by informants as having ethnoveterinary uses. The plants are said to be used by the local communities in various ways to treat 50 livestock health problems. Higher number of informants (23.77%) cited Momordica foetida for the treatment of 16 livestock ailments. The highest informant consensus value for this species is associated with its use for treating blackleg in cattle; Nicotiana tabacum was cited for the treatment of 15 livestock ailments mainly recommended for the Lumpy Skin Disease/Ailment of bovines; Croton macrostachyus for treatment of 13 livestock ailments including wooden tongue, FMD in bovines; and Gymnanthemum amygdalinum for nine ailments mainly diarrhoea of all livestock types. Achyranthes aspera is claimed to provide the most effective treatment for Aspiration pneumonia (severe coughing in bovines, sheep and goats) alone, while Croton macrostachyus, Ximenia americana, Allium sativum and Juniperus procera were indicated as potential plant species to treat Lumpy Skin Disease in bovines in the order given. The fidelity level analysis showed that Datura stramonium, Dodonaea viscosa subsp. angustifolia and Asparagus africanus were potential medicinal plant species to treat the respective ailments of rabies, Peste des petits ruminants (PPR) and evil eye/spirit. Multipurpose plant species including Prunus africanus, Combretum molle and Afrocarpus falcatus have been highly threatened as indicated by direct matrix ranking mainly due to collection of fuel wood, construction materials and making household utensils, and farm implements rather than for other uses. Conclusion Soro District has rich and diversified livestock herbal medicinal resources, and indigenous knowledge of remedy preparations and applications is transmitted through generation lines. This resource faces anthropogenic threats with deforestation being the leading factor. Consequently, ethnoveterinary medicinal plants continue to decline before adequate and proper scientific documentation and testing are made. There is a dire need for planning and implementation of appropriate in situ and ex situ conservation strategies and to strive towards ensuring the survival and sustainable utilization of such important plant resources of Soro District. This must be supported by further documentation of the associated indigenous knowledge and pharmacological testing of the key promising species including Balanites aegyptiaca (novel species/NS to treat specific ailment), Brugmansia suaveolens (novel species/NS reported first to treat Livestock ailments/LsAs), Euclea divinorum (NS to treat specific ailments), Grevillea robusta (NS), Hagenia abyssinica (NS for the reported specific ailment), Pentanema confertiflorum (NS), Juniperus procera (NS), Maesa lanceolata (NS), Millettia ferruginea (NS for reported specific ailments), Schrebera alata/NS, Securidaca longepedunculata, Spiniluma oxyacantha/NS, Vepris nobilis (novel species reported first to treat LsAs), Zanthoxylum asiaticum /NS and Ximenia americana (NS for specific ailments). This ethnoveterinary study attempted to fill part of the gaps concerning the prevalent livestock health problems and the associated indigenous and local knowledge in the area.

Materials and methods Informants were selected using purposive (key informants) and systematic random sampling (general informants) methods.Data on ethnoveterinary plants and their uses were collected through semistructured interviews, guided field walks, 13 focus group discussions with five to seven members in each and participant observation.Informant consensus factor and fidelity level were computed to identify the most common livestock ailment categories and the best plant species with ethnoveterinary use, respectively.Preference ranking methods were used to identify the potentially effective ethnoveterinary medicinal plants for the most frequently reported livestock ailments.The use diversity of multipurpose plants with ethnoveterinary importance was analysed using the analytical methods of ethnobotany including priority ranking, comparisons and important indices.The T-test statistic was used to compare knowledge differences among different social groups.
Results A total of 132 plant species in 120 genera and 61 families were reported by informants as having ethnoveterinary uses.The plants are said to be used by the local communities in various ways to treat 50 livestock health problems.Higher number of informants (23.77%) cited Momordica foetida for the treatment of 16 livestock ailments.The highest informant consensus value for this species is associated with its use for treating blackleg in cattle; Nicotiana tabacum was cited for the treatment of 15 livestock ailments mainly recommended for the Lumpy Skin Disease/ Ailment of bovines; Croton macrostachyus for treatment of 13 livestock ailments including wooden tongue, FMD in bovines; and Gymnanthemum amygdalinum for nine ailments mainly diarrhoea of all livestock types.Achyranthes aspera is claimed to provide the most effective treatment for Aspiration pneumonia (severe coughing in bovines, sheep and goats) alone, while Croton macrostachyus, Ximenia americana, Allium sativum and Juniperus procera were indicated as potential plant species to treat Lumpy Skin Disease in bovines in the order given.The fidelity level analysis showed that Datura stramonium, Dodonaea viscosa subsp.angustifolia and Asparagus africanus were potential medicinal plant species to treat the respective ailments of rabies, Peste des petits ruminants (PPR) and evil eye/ spirit.Multipurpose plant species including Prunus africanus, Combretum molle and Afrocarpus falcatus have been

Background
Ethnobotany of livestock medicinal plants is concerned with the study of the intimate association between the plants and the people and is encoded in the indigenous and local knowledge and practices that went on deepening and enhancing through human generations.This body of knowledge system needs further enhancement before the knowledgeable elderly people of the community pass away; the social fabric is transformed and the environment changes in one way or the other along with the decline of the useful plant resources.An exhaustive investigation of traditional knowledge in ethnoveterinary herbal medicine with the cooperation between herbalists, ethnobiologists, veterinary scientists and anthropologists can continue to move forward through integration and intimate relations with modern veterinary medicine.Such collaboration and cooperation among the key stakeholders helps to engage the society and governmental institutions [1].In addition, higher proportion of the African people about 80% of the population [2,3] or more use potential medicinal plants for treatment of various livestock ailments.In Ethiopia, ethnoveterinary medicinal practices using medicinal plants are alternative options to cure more than 90% of the country's huge livestock population, and also for more than 80% human population [4,5].Furthermore, plant remedies are used against livestock health retribution in more proportion [6][7][8].Although modern veterinary services have been there for a long period [9], traditional herbal medicine has been repeatedly and increasingly shown to have effective healing power for a number of livestock ailments.Moreover, Ethiopian traditional veterinary practitioners contribute to the welfare of domestic animals, their productions and management [10].
Limited distribution of modern veterinary healthcare services, unaffordable cost and lack of accessibility to healthcare benefits makes herb-based ethnoveterinary practices mandatory [11].Thus, to cover the gap in healthcare service through centuries in developing countries of the world, farmers and pastoralist in rural communities have been depending on the wealth of traditional medicines to manage livestock ailments [11], to increase their productive yield and most of this is achieved through herbal medicine; various livestock ailments, pathogenies and vectors are the major constraints that decrease domestic animal production and development in different marginal and rural areas of Africa [12].Traditional herbal medicine provides a safeguard for the group of domestic livestock such as bovines (cattle), equines (horses, donkeys and mules), goats, sheep including poultry (chickens/hens) and is directly related to the food security, and to the sources of economic income due to the systems of healthcare [9].However, the treatment of livestock ailments using traditional herbal medicine had begun before the formulation of modern drugs as reported from different countries [8].Nowadays, the use of the ethnoveterinary medicinal plants along with the associated indigenous knowledge is transferred among successive generations of people only orally without written records and no adequate scientific documentation exists [13].The same source explained that the transfer of this herbal medicinal heritage system is heading to deterioration and decline and may even lead to the eventual extinction of the indigenous medicinal plants, which also leads to impacts on food security as well as negative impacts on ecological transition.
The role of veterinary practices to treat livestock ailments is a long-time practice in all parts of the world, especially in developing countries where livestock healthcare facilities and services are still very few and located scarcely at urban centres [14].Even those people living in close proximity to areas where modern drugs/pharmaceutical products are readily available use preparations of traditional medicinal plants to treat their domestic livestock.This is related to shortage of modern drugs, cultural acceptability, relative efficacy in fighting certain ailments and economic affordability for the rural communities [15].Furthermore, the use of traditional plant-based medicines fits well with the necessity of healthcare system and management of different multifunctional livestock, but the knowledge of veterinary practice is declining as the plants become less and less in their local habitats due to many threatening factors.The consequence is the decline of food serving domestic livestock and other multipurpose livestock, wild forage plants and ecological services.The anthropogenic activity of deforestation for expansions of settlement areas, farming lands, rearing livestock, overexploitation of plants for various other purposes lead to environmental degradation and to threats of medicinal plants [4,5], which may in turn lead to the loss of livestock lives.
Indigenous knowledge on livestock herbal medicine and practices is being transmitted to the young generation via oral message rather than in the form of written documents and stories [7].As a result, veterinary traditions went on eroding without adequate documentation based on suitable and effective analysis of medicinal plant alongside the associated indigenous knowledge [11].Soro District, an area of agriculturists and agropastoralists where mixed agriculture is widely practised, has long been inhabited by people who have a long tradition of using medicinal plants to treat livestock ailments and there has been very little effort to assess and document ethnoveterinary plants and associated knowledge and practice.Given the absence of livestock medicinal plant studies so far in Soro District, a strategic plan was made and this study is an initiative to assess and document ethnomedicinal plants of veterinary importance with the associated uses and local practices particularly focussing on Soro District of Hadiya Zone.
Moreover, in different phytogeographical regions of East African countries, many studies in various areas of Ethiopia with diverse ethnic groups and biodiversity have also documented ethnoveterinary healthcare of livestock with medicinal plants along with the associated traditional knowledge.In addition, solely ethnoveterinary study in the Soro District also contributes rich sources of livestock medicinal plants with traditional knowledge, which also provide wild food and ecologically important plants.Thus, the objective of this study was to document the diversity of livestock medicinal plants paying special regard to fill the information gap on ethnoveterinary plants and their associated functions that enhance livestock welfare and food security.This indigenous knowledge documentation and transfer to future generations could determine the status of livestock, their health management system and their threats in the study area and beyond.Therefore, the study also planned to assess and document ethnoveterinary medicinal plants and associated indigenous knowledge and traditional practices in Soro District, Hadiya Zone, southern Ethiopia.

Study area description
The ethnobotanical study was conducted in Soro District, geographically located between the coordinates 37 0 20′ 0'' to 37 0 50′ 0''E longitudes and 07 0 0′ 0'' to 07 0 40′ 0''N latitudes; and the altitude ranged from 799 m.a.s.l to 2934 m.a.s.l.The total land area covers 36,473.337km 2 /3647333.7 ha.Most of the study District sites are highlands followed by middle and low land agroclimatic zones, and the mean annual rain fall is in between 900 and 1500 mm, with the temperature in between 12 and 26 °C.
The study area, Soro District, was selected purposively by the researcher, whereas sampled kebeles were chosen by a focus group discussion conducted at the district level at the beginning of the research when reconnaissance study was conducted.Soro District is grouped as one of the high agricultural potential areas in Hadiya Zone, and the main economic activity is agriculture.The main interest in this study is to document the ethnobotanical information with the associated indigenous knowledge focussing in this study on livestock ailments and the medicinal plants used by the local community to manage these ailments.The total human population of Soro District is 287, 589; with 143, 835 males and 143, 754 females.The majority (about 87.42%) of the people live in rural communities who mainly rely on agricultural economy and 12.58% of the people live in urban areas.The indigenous people of Soro inhabiting Soro District belong to Hadiya people, who speak the Cushitic family language in Ethiopia (which is one of the major ethnolinguistic groups in Ethiopia).They speak the language of Hadiyissa and learn it in the school where it is part of the formal education of the school-aged children; they also use Amharic (the national language) for official work.
The livestock population in the District as given by Soro District Agricultural and Rural Development Office in 2020 the livestock population of the District has been estimated to be about 3, 329, 827, of which the highest proportion, about 29.62%, goes to herds of bovines (cattle), accounting for 986, 248, followed by 388,082 sheep (11.5%), 295,018 goats (8.86%), 40,291 equines, 1, 620, 188 poultry including 18, 918 honeybee colonies and 0.5 tone fish.These major agricultural commodities indicate the type of agricultural activities and that the communities are more of semi-pastoralists and agropastoralists that keep very high livestock population.However, in spite of the presence of high livestock population there are only few numbers of veterinary clinics in the District and most households rely on traditional herbal medicine to treat different kinds of livestock ailments.
The Head of Veterinary Office in the District reported that Lumpy Skin Disease (LSD), blackleg, trypanomiasis, Foot and Mouth Disease (FMD), PPR, New Castle Disease (NCD), cattle pasteurellosis, African Horse Sickness (AHS), rabies, livestock tuberculosis, anthrax, shoat pox, fowl typhoid, coccidiosis, livestock lice/tick infection and other parasitic diseases were among the most common ailments frequently affecting livestock in the District.There are 14 rural veterinary healthcare posts and one main clinic in the main town of the District.The rest of the 18 administrative kebele's get veterinary service from nearby health posts and a clinic.There were eight veterinarians; three DVMs, five Bsc and 15 diploma holders without any livestock healthcare assistants working in the District.The mentioned veterinary healthcare centres are not sufficient to provide proper health services for the total number of livestock heads present in the study area.This was due to the migration of veterinarians, health clinics and professionals.Health services were more or less used in clusters.
Furthermore, the rising human population and expansion of farming are the main contributing factors to the declining vegetation of the study area.This was the key factor that motivated initiation of this research that investigated ethnoveterinary medicinal plants and the associated community knowledge of the people of Soro District.
Based on the information gathered during the reconnaissance survey and archival sources [16] at the District level, the research was informed that there are 33 total kebeles, of which 13 rural kebeles/subdistricts (the smallest administrative units) or resident sites including nearby urban kebeles were purposively selected and involved in this research.The map of the study District and the selected sites are as given in our recent publication on the wild edible plants of Soro District [17].

Focus group discussions
A focus group discussion in the centre of the District (Gimbichu town) consisted of different members of key stakeholders from Soro District administrative offices representing relevant professions and social groups, including health, veterinary and fisheries, culture and tourism, agriculture, education, environmental protection, forest and climate change, biodiversity, public service (capacity building), children, women and youth offices.During actual data collection, 13 focus group discussions were conducted, in the entire research area with the collaboration of different professionals, and semistructured interviews of purposively sampled key and systematic randomly sampled general informants.
In a focus group discussion, 12 informants (eight males and four females) were involved in Gimbichu town.One FGD was conducted at each data collection site using semi-structured interviews with knowledgeable kebele participants, farmers, key informants, community elders and leaders, religious leaders, inhabitants of forest patches, woodworkers, apiculturists and potters.During FGDs, each kebele resulted in five to seven participants representing 88 informants in 13 study sites.A total of 62 males and 26 females were involved with different age groups, genders and respective numbers of participants (20-35 years old with 12 males and five females, 36-59 years old with 24 males and 12 females and ≥ 60 years old with 26 males and 12 females).The total number of informants involved in this ethnoveterinary medicinal plant survey was 387, comprising 255 (65.89%) males and 132 (34.11%) females, and their ages ranged from 20 to 90 years.Of these, general informants were 296 (76.49%) with 179 (60.47%) males and 117 (39.53%) females; key informants were 91 with 76 (23.51%) males and 15 (16.48%) females.
They reported information on the diversity of ethnoveterinary herbal plants, their usage, threats to indigenous plant species and methods of conservation and management.In addition, participants received information about the use of medicinal plants and were involved in the collection of specimens.Each discussion was guided by the kebele administrator, an environmental protection expert, and an officer of forest and climate change, who served as local language translator for other team members during discussions.In the meetings, verbatim information was chaired and recorded by the first author (researcher).Local names of ethnoveterinary plants, habits, parts used, locations, flowering or blooming periods, time of plant part collection for remedy preparation, dosage, preparations using different methods, causes of health problems and symptoms shown by the livestock if they consume poisonous plant parts, antidotes and other important notes were discussed and recorded.

Informant sampling techniques in the study sites
Respondents were sampled based on information from the reconnaissance survey, the FGD session at the District level, community recommendations and researcher's observations during the initial direct interactions with informants.General informants (sampled using systematic random sampling approaches) and key/knowledgeable informants using purposive selection approaches were used for identification of traditional veterinary herbal medicine end users and practitioners following standard methods described in the literature [18,19].Selection of key informants relied more on information provided by recommendations of knowledgeable inhabitants, elderly people, community members and kebele administrators.General informants were sampled from the total households.The total household number (11,908) was obtained from Soro District Finance office, Planning and Economic Development Office.This number was multiplied by the sample size then divided by total households found in each kebele.For instance, the total number of households for Bure kebele was 660 and the number of general informants was calculated as 660 11908 * 387 = 21.Similar calculations were made for all kebeles and different number of informants were obtained which added up to an overall total sample size of 387 (Table 1) for the study area following this sample size determination formula [20].

Data collection
Ethnomedicinal data on ethnoveterinary plants were collected using field observations, guided field walks, semi-structured interviews and focus group discussions following methods described in relevant sources [18,21].The semi-structured interview questions were prepared in the English language and then orally translated into Hadiyissa, informants' mother tongue.Informant interviews were conducted individually to obtain sufficient information on livestock medicinal plant species, parts used, preparation methods, commonly treated ailments, routes of administration and dose determination.Data regarding diversity, habitat distribution, and threats to ethnoveterinary medicinal plant species were gathered from the community.Voucher specimens of all reported medicinal plants were collected from various locations in the three agroclimatic habitats by interviewing traditional medicine practitioners/healers working as key informants and general informants as well.
Important georeferenced data using the geographic positioning system (GPS), vernacular plant names, habitats and habits of each plant specimen were recorded.Voucher plant specimens were numbered and coded, pressed, dried and identified with the help of the Flora of Ethiopia and Eritrea [22][23][24].The identification was verified by comparison with authenticated plant specimens found at the National Herbarium, Addis Ababa University, confirmed by taxonomic experts and finally deposited there (AAU).

Data analysis
Microsoft Excel spread sheet software version 2016, SPSS version 25 and one-way ANOVA and values of F-tests were employed for the analysis of data on ethnoveterinary medicinal plants with the use of indigenous knowledge in various informant groups.The collected herbal ethnoveterinary data sets were analysed mainly by qualitative as well as quantitative approaches and descriptive statistics [18].Preliminary informants' demographic information, livestock ailments categories and ethnoveterinary medicinal plant frequency and percentages based on general features (such as forms of plant life cycle, parts used in remedy preparation, route of administration, preparation forms, means of applications and dose determination) and analysed using tables, figures and descriptive texts.Ethnoveterinary ailments were collected from the District, and informants' interviews were categorized to reflect on understanding of the local and indigenous uses of traditional herbal medicine and ailment signs and symptoms based on the ICPC (International Classification of Primary Healthcare) as stated by Staub et al. [25].
As a consequence, ethnobotanical scoring and ranking using values of informant consensus factor (ICF), index of fidelity level (FL), preference ranking (PR) and direct matrix ranking (DMR) were conducted for crosschecking and verification of the potential priority ethnoveterinary medicinal plant species to heal different ailments and to ensure the level of consistency as recommendations of [26][27][28], as well as to identify the priority species for conservation, and statistical analysis was used to create charts and graphs.
Informant consensus factor was used to describe the agreement between informants when choosing the most cited medicinal plant species that was used to treat a group of ailments in the ailment category.It was used to evaluate and to prioritize the reliability of medicinal plant data.The formula was ICF = Nur−Nt Nur−1 , where, ICF is the informant consensus factor, Nur is the number of each selected medicinal plant species use citation, and Nt is the number of selected plant species used [29,30].
Index of fidelity level (FL = Ip/Iu × 100) was used to estimate the relative curing/healing efficacy of each potential medicinal plant species based on the proportion of respondents who agreed on its use against a given category of the ailments [19,21,27], where Ip is the number of informants who independently cited the importance of a species for a particular main ailment and Iu-the total number of informants who reported the same plant for any ailment [26].In the ethnobotanical studies index of FL, it was recommended to use medicinal plants for their future phytochemical analysis, activities of antimicrobial test, characterization, bioactive chemical isolation, for drug formulation and characterization [31].
Preference ranking is defined as arranging a rank of most preferential medicinal plants that was scored for treatment of specific ailment by respondents responses following relevant sources [18,19].Mainly key informants were used to assess the degree of preferences of medicinal plants that were scored by informants.
DMR was used to compare multipurpose medicinal plants commonly reported for diverse use and diversity of a specific plant species using key informants following the methods [18,19,21].The uses of multipurpose medicinal plants were selected from the total of confirmed livestock medicinal plants.Samples of key informants were listed and discussed the uses of the plant species.They were asked to assign and order the use values to each species (best = 5, very good = 4, good = 3, less used = 2, least used = 1 and not used = 0).The values of the average scores were given to individual medicinal plant species that were summed up and ranked.In addition, randomly selected ten (10) key informants were involved in a priority ranking exercise that focussed on perceived threatening factors of the five medicinal plant species.Direct matrix ranking score of randomly taken 10 key participants for five ethnomedicinal livestock plants for different use categories.In general, these overall ranking exercises help to check targeted indigenous plants with associated local knowledge for those claimed multipurpose indigenous plant species in the study community.

Demographic features and indigenous knowledge on informants
Most informants belonged to the protestant (80.88%) and Hadiya ethnic groups, followed by adventists (7.75%).The occupations of most respondents were farmers (73.64%), followed by housewives (23%), and others (Table 2).Key informants reported more number of ethnoveterinary medicinal plants, and they have relatively more knowledge of their uses than general informants; they reported one or more medicinal plant species for the healing purposes of various livestock ailments.They were categorized in between young ages (20)(21)(22)(23)(24)(25)(26)(27)(28)(29)(30)(31)(32)(33)(34)(35), adult ages  and old ages (> or equal to 60 years old) and accounted for 24.29% (94, 51 males and 43 females), 50.90% (197, 127 males and 70 females) and 24.81% (96, 77 males and 19 females), respectively.Most of the informants, 62.53% (242, 176 males and 66 females), were literate people who are able to read and write (R&W), followed by illiterate people (who cannot R and W), and 37.47% (145, 79 males and 66 females).Statistically, males (4.59 ± 3.55) have rich veterinary drug information compared with females (3.29 ± 1.37), and the difference was statistically significant P value (P < 0.05).Literates, 242 (4.43 ± 3.16) reported more average numbers of medicinal plants in the community for various ailments and this is highly significant (P < 0.05) than illiterates.This could be related to the fact that literates keep written information rather than oral retention of information alone.The same trend was observed considering 145 (4.12 ± 2.27) as well as distantly (4.34 ± 3.06) than nearby (4.20 ± 2) to the town.Similarly, significantly (P < 0.05) more medicinal plants were reported by key informants (91, 8.22 ± 4.70) than general informants 296 (2.46 ± 1.17).However, higher average number of medicinal plants were reported by elderly informants (5 ± 3.44) who are older/senior members of the community than adults (4.22 ± 2.70) and the young age (3.77 ± 2.47), though the difference was statistically non-significant (P > 0.05, P = 0.257) that informed and reported higher numbers of medicinal plants than young and adult ages (Table 3).Also, there was no significant variation that was observed among three agroecology of the District (P > 0.05, P = 0.112).

Taxonomic diversity of livestock medicinal plants (LsMPs) in Soro District
A total of 132 ethnoveterinary plant species belonging to 120 genera and 61 families were collected from the altitudinal ranges of 1472-2754 m.a.s.l., identified and documented.These plants are used for the treatment of different ailments of domestic livestock in the study District as reported by informants.Of these, 13 (9.85%)species are endemic medicinal plants (*).The majority about 129 (97.73%) of LsMPs are flowering plants, and there are three (2.27%) gymnosperms and 26 exotic plants.The recorded plants include 14 spices, four cereal crops, two pulses and two stimulants involved in medicinal preparations.These plants are used by the community primarily as first-aid materials to handle various health problems in livestock.Based on the results of the growth form analysis of livestock medicinal plant species, herbs contributed the highest  species proportion of 51 (38.64%), followed by trees at 36 (27.27%); hemiparasites accounted for the least proportion of one (0.76%); and others lie in between (Fig. 1).These ethnoveterinary medicinal plant species have dominant families, with the highest number of plant species (Fig. 2) accounting for a different number of families and genera.Of these Asteraceae accounted 10 (7.58%) species, Fabaceae nine (6.82%) species and both with eight (6.67%) genera, and Lamiaceae nine (6.82%) species and Solanaceae seven (5.30%) species both with seven (5.83%) genera were the dominant families followed by Rubiaceae six (

Medicinal plant parts, medicinal additives, use conditions and administration routes
The result of this study indicated that many medicinal plant parts were picked from mother plants and prepared to treat diverse types of specific livestock ailments, either in the form of single or more varied plant parts, with the  In the study area, Soro District, different informants frequently reported that various types of additives were used for the preparation of ethnoveterinary herbal drugs, and they were also used for medicinal purposes such as cold and warm water 190 (71.97%) out of 264, saliva during chewing medicinal plants 20 (7.58%), NaCl salt 16 (6.06%),milk ('Irigo') and its products 10 (3.79%), beverage/arekie five (1.89%), salty soil/locally 'Borra'-Hadiyissa name for salty soil occasionally given to livestock five (1.89%), cattle dry dung four (1.52%), enset ('hamicho' , 'bu'o' , 'kocho') four (1.52%) and plant latex three (1.14%).Whereas among the total number of all the different additives reported, other less frequently used additives include charcoal two (0.76%); soil from a depth of 50 cm; dry faeces of donkeys one (0.38%); and others one (0.38% each) like petroleum gas, penicillin and sprite were used by local people to mix with medicinal plants.
Some of those additives were used as antidotes for various traditional drug problems; these include the use of excessive water, milk ('Irigo') and its products.Of all, water is the universal natural mixing medium among different dilution solvents and serves as a universal additive.Certain plants, such as Carduus schimperi and Clutia abyssinica, have medicinal uses in cases where toxic or poisonous plants are eaten by livestock to neutralize their bad effects.Key informants reported that they also have nutritional uses for livestock fattening.
The various traditional herbal medicine parts were used in fresh form about 109 (82.58%), followed by dry, 12 (9.09%)and 11 (8.33%) fresh/dry parts.The results of the reported analysis of the application route of this study pointed out the relative numbers of varied routes of administration for traditional medicines to treat different types of livestock ailments.Oral administration through the mouth was the most commonly used route 191 (65.41%), followed by dermal 32 (10.96%), nasal 30 (10.27%), anal 21 (7.19%) and others like optical and reproductive organ, whereas both the ear and spraying plant extract prepared by herbal medicine on the physical (external) environment to against or kill ailment-causing agents similarly contributed the least number one (0.34%) each of the 292 total reports (Fig. 4).

Forms of medicinal preparation and application methods
Results of the analysis of medicinal preparation of medicinal plants showed that decoction 94 (36.7%) for remedy preparation from a single medicinal plant species made the largest proportion, whereas concoction 76 (29.7%) by mixing plant material from different species came in the next place following by crushing 20 (7.8%), chewing 14 (5.5%), boiling 13 (5.1%) and others (Fig. 5).In addition,  some of the herbal preparation out of the 256 total preparations, pasting and infusion accounted three (1.2% each); burning two (0.8%); with others cooking/roasting, holding, chopping and without processing accounted one (0.39% each).
Ailment treatment through drinking by mouth (181 (70.43%) of the 257 total reports) was widely used, and the most common method for traditional remedies application method following spitting through the nose (8.56%) and eating (3.89%) came up in higher proportions flowing pasting, others (Fig. 6).Whereas inhaling the steam by nose, smearing (creaming/ontiment) to the body and smoking through nose accounted three (1.17%each); swallowing through mouth two (0.78%); and spraying to the physical environment, sprinkling on the wound and inserting to the body each one (0.39%).
The prices of each species varied from market to market.For example, the prices of a bunch of Dashshi maracca-Had (Antherica sp)., and Mukke'e-Had (S. longepedunculata), and a mug/water glass of Suuxo-Had (H.abyssinica) were sold and purchased each 40-50 EthBirr.One coffee or tea cup of Naatira-Had.(A, absinthium), Tambaa'i koshsho'o-Had.(N.tabacum, and were sold by 10-20 EthBirr. As reported for decades in the study area, some medicinal plants were commonly sold for the purposes of livestock herbal medicines, such as Ajuga integrifolia (Annaamura-Had.),Echinops kebericho (Toosa-Had.), and Hagenia abyssinica (Suuxo-Had.), were sold and purchased in excess for functions of traditional medicine.However, nowadays, due to various impacts, these plant species have become locally extinct in the area because of human activities such as harvesting for various uses and the removal of those potential plants from the community.Thus, they require systematic in situ and ex situ conversation plans to conserve them with the relationships of people living there.

Ethnobotany of the best livestock plant species in Soro District
In the study area, Soro District, the highest ICF values were recorded for a group of ailments under dermatological ailments (0.72) followed by gastro-intestinal (0.71) and respiratory (0.70) ailments which depicted the agreement on knowledge of medicinal plants used to treat best by the community (Tables 4 and 5).
Simple preference ranking exercises/practice with the best ten (10) randomly chosen key knowledgeable informants for the most 10 livestock plants were reported against the most prevalent ailment category among gasto-intestinal ailments in the study sites.It is effectively used for treating LSD which was repeatedly reported in the study District.Samples of key informants were involved in the interview and asked to assign the number one for the least effective medicinal plant species and 10 for the most effective plant.As a result, C. macrostachyus was ranked first and X. americana ranked second, A. sativum was ranked third, and J. procera was ranked fourth; however, Z. officinale was ranked in the lowest categories (Table 6).

Multi-use multipurpose traditional livestock medicinal plant species and conservation activity
The result of the average output of the direct matrix ranking score of 10 key informants for five use diversities showed that some multipurpose ethnoveterinary species are highly exploited for firewood, charcoal and house construction and utensils rather than the use of medicinal values.These 1st, 2nd and 3rd ranked plant species became locally extinct and endangered due to the relatively highest harvesting activities of each plant species for the sake of various functions (Table 7).Thus, these medicinal plants were used for livestock ailments and they needed conservation priority based on the present status in the communities of the study area.Here, five is given for the highest score number, and the least score is given by one.Agricultural expansion, new settlements, local charcoal and overgrazing were the main threats to ethnoveterinary medicinal plants.For this reason, educational training with economic support is a prominent need for relatively well-known intellectual and knowledgeable herbal medicine practitioners in the District to use herbal medicine in a sustainable way.

Livestock aliment categories, types and methods of ailment diagnosis
A total of fifty (50) livestock ailments were identified and categorized from the reports of different stakeholders (Table 8) including local name and ailment categories.In this study, the most commonly and repeatedly reported livestock ailments were recorded and identified.The occurrence of these identified veterinary ailments was classified with the help of veterinary experts from the District.They were collected from the District FGD report, the District Veterinary Health Office report and different study sites as follows: FMD, Lumpy Skin Disease/Ailment (LSD/A), actinobacillosis (wooden tongue), anthrax, babesiosis, acidiosis (bloat), blackleg, livestock trypanosomiasis, New Castle Disease/Ailment (NCD/A), PPR (Peste des petits ruminants-ailment of goats) and diarrhoea were the top 10 frequently reported livestock ailments, following coccidiasis, aspiration pneumonia, abdominal pain, rabies, eye pain, evil eye/evil spirit and livestock ascariasis.They frequently attack bovines, equines, sheep, goats and poultry are treated with indigenous herbal medicines by local people, who said they mainly rely on different medicinal plant species to treat them in addition to modern healthcare services.
Of the reported potential livestock ailments that commonly cause health problems, most of them were categorized into dermatological (including 15 types of ailments, 30%), gastrointestinal (14 types of ailments, 28%) and respiratory (five types of ailments, 10%).Dermatological ailments category is the most common category, followed by gastro-intestinal and respiratory ailments.Informants use a single uni-medicinal plant or more than one plant (a poly-medicinal plant) in the study area to treat different ailments.Other remainder ailment categories and their numbers like parasitic (ecto-and endo-parasitic) and neurologic ailment together six ailments (each three types) in the proportion of 12% (each type 6%); orthopaedics, musculoskeletal, infertility, placental and fibril illness together six ailments (each one ailment) and accounted 12% (each 2%); orbital and other ailments together four ailments (each two types) accounted 8% (4% each).
Different key and general informants reported the use of a single species to treat many different livestock ailments and the combination of two or more different medicinal plant species involving either the same or different parts in the study area to treat different specific ailment types (Table 8).For example, Momordica foetida was used to treat 16 (4.91%)ailments of the 326 total frequently reported livestock ailments alone or more in combination, which was used to treat bovines/cattle LSD; evil eye, evil spirt, diarrhoea, dingetegna, acidiosis (bloat) and bat urine of all livestock were treated; epizootic lymphangitis of equines (horses, donkeys and mules); anthrax of bovines, equines and sheep; telleriosis (anaplasmiosis-spleen enlargement due to tick-borne) of bovines and sheep; actinobacillosis that causes wooden tongue of bovines; abdominal pain or ache in all livestock; to treat body swelling and blackleg pain in bovines with a combination of Hesperocyparis lusitanica and Euclea divinorum; Nicotiana tabacum was used to treat 15 ailments (4.60%), e.g.LSD, pasteurellosis (livestock TB, i.e., livestock tuberculosis) or coughing, and blackleg of bovines with a combination of Allium sativum and other four medicinal plant species (Table 9); insect infection and aspiration pneumonia of bovines, sheep and goat; anaplasmiosis of bovines and sheep; back sore of equines; skin ailments, wound or sore, swelling, nasal bote, eye pain, acidiosis and snake bite (venom injection) of all livestock were treated.Croton macrostachyus was used to treat 13 ailments (3.99%): FMD, blackleg, bloat, pregnancy and actinobacillosis of bovines; abdominal pain and abdominal ache of bovines and sheep; livestock tumour of bovines and equines; used to treat all livestock diarrhoea, livestock hepatitis/jaundice, dingetegna, snake bite and skin wound; both Allium sativum and Gymnanthemum amygdalinum plant species (0.75% each) used to treat nine ailments (2.76% each): the former was used to treat NCD of poultry; bovines LSD, blackleg and wooden tongue; anaplasmiosis of bovines and sheep; constipation bovines, sheep and goat; dingetegna, bloat, parasitic leech and coughing of all livestock; whereas the latter also was used to treat PPR (peste des petits ruminants) of sheep and goats; diarrhoea of bovines, sheep and goat; placenta remain of bovines, sheep, goats, horses and donkeys; babesiosis (liver ailment), eye pain, dingetegna, bloat and trauma (blood accumulation in the body) of all livestock; and actino-bacillosis/wooden tongue of bovines.
Securidaca longepedunculata was used to treat eight ailments (2.45%), anthrax of bovines, equines, sheep; actinomycosis of bovines; diarrhoea of bovines, sheep and goat; dingetegna, abdominal pain/ache, bloat, swelling, and babesiosis of all livestock were treated.Both Cucumis ficifolius and Zingiber officinale plant species (both treat 1.51%) were used to treat seven ailments (2.15% each); among these, C. ficifolius was used to treat mainly blackleg of bovines; anthrax of bovines, sheep and equines; external tumour of bovines and equines; and all livestock of babesiosis, rabies, abdominal pain/ache, and dinegetegna were also treated; whereas Z. officinale was used to treat livestock ailments of swelling, actinomycosis, and LSD of bovines; diarrhoea of bovines, sheep, and goat; coccidasis of poultry ailment; bloat and abdominal pain/ache of all livestock were treated in the study area.
The other three plant species (2.27%) that were used to treat six (1.84% each) individual ailments: Cyphostemma pannosum was used to treat skin wound and bloat of all livestock; placenta remains in bovines, sheep and goats; blackleg in bovines; telleriosis (spleen enlargement) in bovines and sheep; anthrax in bovines, sheep and equines.Eucalyptus globulus was used to treat listeriosis, dingetegna, bloat, nasal bote and coughing in all livestock; it was also used to treat insect infections in bovines, sheep and goats.Euclea divinorum was used to treat actinobacillosis of bovines, conjunctivitis, bloat, dingetegna and diarrhoea of all livestock, and blackleg of bovines.
Four plant species (3.03%) were used to treat five ailments (1.53% each), such as Capsicum frutescens was used to treat poultry coccidiasis and NCD in chickens; spleen enlargement in bovines and sheep; LSD and                    Among the lower number of ailment-treating plant species, nine plant species (6.82%) were used to treat four ailments (1.23% each): for example, Calpurnia aurea was used to livestock mites, fleas and lice in bovines; skin ailment in all livestock; Coffea arabica was used to treat LSD and pasteurellosis in bovines; abdominal pain and aspiration pneumonia of all livestock; Coriandrum sativum was used for bloat, abdominal pain and swelling in all livestock, including blackleg in bovines; Erythrina brucei was used for aspiration pneumonia, constipation, bloat and abdominal pain/ache in all livestock.Euphorbia abyssinica was used to treat asthma/stenosis of respiratory organs in equines; swelling, wound and tumour in all livestock; Maesa lanceolata to treat babesiosis, aspiration pneumonia, diarrhoea and rabies in all livestock; Ocimum spicatum was used to treat LSD in bovines; AHS in equines; eye pain in bovines; and michi in all livestock; Rubia cordifolia was used to treat aspiration pneumonia in bovines, sheep and goats; it was used to treat all livestock diarrhoea, bat urine ailment and michi.Sida rhombifolia was used to treat bloat and snake bite in all livestock; abdominal pain/ache and constipation in bovines, sheep and goats.
Thirteen plant species (9.85%) were used to treat three (0.92% each) ailments: Aframomum corrorima was used to treat abdominal pain, aspiration pneumonia and bloat in all livestock; Aloe sp was used to treat body swelling, diarrhoea and skin wound in all livestock; Brucea antidysenterica was used to treat blackleg of bovines; diarrhoea and bloat in all livestock; Clematis longicauda was used to treat pregnancy of bovines; babesiosis, and bloat in all livestock; Clutia abyssinica for aspiration pneumonia and toxicity of bovines, sheep and goats; actinomycosis of bovines; Hesperocyparis lusitanica was used to treat livestock trypanomiasis in bovines and equines; blackleg in bovines and dingetegna in all livestock.
Foeniculum vulgare was used to treat aspiration pneumonia of bovines, sheep and goats; blackleg and livestock TB of bovines; Grevillea robusta for LSD of bovines; constipation of bovines, sheep and goats; and bloat of all livestock.Gymnanthemum sp was used to treat dingetegna and diarrhoea of all livestock; livestock trypanomiasis of bovines and equines; Prunus africanus for swelling and bloat of all livestock; back sore of equines; Ruta chalepensis was used to treat abdominal pain/ache, bloat and trauma in all livestock; Scepocarpus hypselodendron was mainly used to treat constipation and livestock ascariasis in bovines, sheep and goats; bloat in all livestock; Urtica simensis was used to treat all livestock evil eye (evil spirit) and ailment of bat urine.
Of the 34 (25.76%)plant species, a single species was used to treat two livestock ailments (0.61% each), such as Acmella caulirhiza was used to treat the pregnancy (to initiate fertility) of bovines and bat urine ailment in all livestock; Agave sisalana swelling of all livestock and NCD of chickens; Ajuga integrifolia and Asparagus africanus were used to treat the evil eye and evil spirit of all livestock.Allium cepa was used to treat actinomycosis and livestock TB; Artemisia absinthium and Cordia africana were used effectively as livestock medicinal plants for aspiration pneumonia (severe coughing) in cattle, sheep and goats in addition of livestock trypanomiasis (bovines and equines), and bloat of all livestock, respectively.Cymbopogon citratus and Gymnosporia arbutifolia were also potential species used to treat eye pain (conjunctivitis) in all livestock separately including aspiration pneumonia, and Brugmansia suaveolens was used to treat diarrhoea and bloat in all livestock.Carduus schimperi was used for bovines pregnancy for foetus attachment; poisonous/toxicity plant eaten bovines, sheep and goats; Bersama abyssinica was used to treat anthrax and swelling of bovines, sheep and equines; swelling of all livestock; Cyathula uncinulata was used to treat aspiration pneumonia of bovines, sheep, and goats, and blackleg of bovines; Cyphostemma adenocaule was used to treat bovines body swelling and bloat of all livestock.
Echinops kebericho used to treat abdominal pain/ache and bloat; and Euphorbia depauperata to treat diarrhoea of all livestock and Lumpy Skin Disease of bovines; Ilex mitis was used to treat dingetegna and bloat; Pentanema confertiflorum was used to treat coughing and livestock TB in all livestock.Justicia chimperiana to treat diarrhoea in all livestock; FMD of the bovines; Millettia ferruginea was used to treat coughing and spiration pneumonia in all livestock; Ocimum lamiifolium for bloat and abdominal pain in all livestock; Olinia rochetiana was used to treat aspiration pneumonia in all livestock and bovines pregnancy for foetus attachment; Phaseolus lunatus for dingetegna and diarrhoea in all livestock; and Phytolacca dodecandra was used to treat aspiration pneumonia and diarrhoea of all livestock.
Ricinus communis was used to treat eye pain and body swelling of all livestock; Shirakiopsis elliptica for diarrhoea and bat urine ailment in all livestock; Scadoxus multiflorus was used to treat bloat in all livestock and shoat pox in sheep and goats; Vepris nobilis and Dodonaea viscosa subsp.angustifolia were used to treat diarrhoea and bloat in all livestock; Zanthoxylum asiaticum was used to treat rabies and dingetegna in all livestock; Gymnanthemum auriculiferum was used to treat skin wound in all livestock and fowl typhoid in poultry; Ximenia americana was used to treat arthritis (gouge or mondy-morning ailment) of equines and Lumpy Skin Disease of bovines; Phyllopentas schimperi and Coleus abyssinicus were used to treat cysticercus (livestock ascariasis) of bovines, goats, and sheep; Withania somnifera was used mainly to treat arthritis of the equines and all livestock bloat.
Oldeania alpina was used to treat trauma (bone broken attachment) in bovines, sheep, and goats; Balanites aegyptiaca was used to treat arthritis (gouge) of equines; Citrus x aurantiifolia for actinomycosis of bovines; Clematis hirsuta was used to treat hepatitis of all livestock; Colocasia esculenta and Lathyrus oleraceus were used to treat nasal bote (parasitic leech) of all livestock.Combretum molle, Myrtus communis and Platostoma africanum to treat all livestock of diarrhoea; Commelina benghalensis, Erica arborea, Ocimum basilicum var.cinnamon and Terminalia brownii were used to treat constipation of bovines, sheep, and goats; Lavandula dentata, Oncoba spinosa and Verbena officinalis were used to treat abdominal pain/ache of bovines and sheep; Melia azedarach and Physalis peruviana were also used to treat dingetegna of all livestock; Olea europaea subsp.cuspidata was used to treat livestock tumour.
Oxalis corniculata was used to treat snake bite in all livestock; Phyllopentas schimperi was used to treat bovines, sheep and ascariasis of goats.Peponium vogelii was used to treat telleriosis of bovines and sheep.Phoenix reclinata and Schrebera alata were used to treat conjunctivitis (eye pain) in all livestock; Rumex abyssinicus was used to treat babesiosis in all livestock.Rumex nepalensis was used to treat livestock tumour (skin warts or venign external tumour) in bovines and equines; Tapinanthus sp of hemiparasite was used to treat LSD of bovines and equines, and Trigonella foenum-graecum was used to treat faciolosis of bovines, sheep, and goats; Crinum abyssinicum was used to treat skin wound of all livestock; Cyperus rotundus, Erythrina abyssinica, Hordeum vulgare, Nigella sativa, Piliostigma thonningii, Rytigynia neglecta and Zea mays were used to treat bloat of all livestock; Datura stramonium, Ekebergia capensis, Afrocarpus falcatus, and Spiniluma oxyacantha were used to treat all livestock aliment rabies; Dicliptera magaliesbergensis was used to treat reproduction problem of bovines; Eragrostis tef was used to treat sore of equines; Lasiosiphon glaucus was used to treat FMD of bovines; Hymenodictyon floribundum was used to treat livestock ascariasis of bovines, sheep, and goats; Juniperus procera was used to treat bovines actinobacillosis.All mentioned ethnoveterinary medicinal plants were used with different applications, preparation forms, means of treatment and roots of administration (Table 9) to treat dermatological, gastrointestinal, respiratory and other categorical different livestock ailments (Table 8).
In the study District, traditional healers diagnose livestock ailments before giving traditional medicines, mainly by observation, interviewing sick livestock owners and touching sick livestock body parts.During the diagnosis exercise, a traditional herbal practitioner identifies the ailment of a sick livestock; he or she has started well preparation and given the proper route and application.Moreover, herbal practitioners dealing with livestock ailments in the communities living in the study sites prepare remedies from different plants that play useful functions against infectious and non-infectious ailments.

Toxicity/poisonous traditional livestock medicinal plants
From the study of livestock ailment-treating medicinal plant species Calpurna aurea (Fabaceae), Datura stramonium (Solanaceae), Agarista salicifolia (Ericaceae) and germinating Sorghum bicolor (Poaceae) at the growing stage with two leaves were also reported toxic plant species in addition to medicinal uses, and the traditional extracts of these ethnobotanical plants are used for various purposes.For example, informants reported that the traditional extract of A. salicifolia kills rats, and it also kills livestock when they eat the fresh leaves.C. aurea kills insects (repelling) and other livestock like mites, fleas and lice (for skin ailments).This species is said to be fata if swallowed and hence requires attention to neutralize its toxicity.Agricultural expansion, new settlements, local charcoal and overgrazing were the main threats to ethnoveterinary medicinal plants.These maximize the extinction of multi-purpose medicinal plants; attention was required for these poisonous species to neutralize toxicity.

Threats of ethnoveterinary medicinal plant species in the district
Plants in Soro District are threatened by different natural and anthropogenic factors as in many other districts.The major threats to medicinal plants identified by informants are deforestation due to the need for new farmlands for agricultural expansion and new settlements.Excessive use of shrubs and trees, from all habitats, for various functions.Overgrazing in the protected vegetation patches without awareness.The consequences of these activities lead to loss of vegetation, and decrease heritage of indigenous knowledge held by elders and the young generation would not have knowledge about use and management.These all-impact factors contribute to changes in climatic conditions to the environment which cause serious threats.Informed suggestions from different study sites for solutions of those different threats, to conserve those threatened medicinal plants either in the community or vegetation areas of the Soro District.Mainly in situ conservation in their natural habitats, teaching educational awareness in the community for the domestication of indigenous ethnoveterinary medicinal plants by local people around their lives, agricultural areas as shades, roadsides, nursery sites and reducing exotic substitutions.Hence, these help the sustainability of vegetation of the remained forest patches of the District.

Discussion
In the study area, livestock are one of the main sources of the agricultural economy, providing power for crop production and livelihoods for the local community.In addition, mostly they provide various services for the rural community, including as pack animals, income sources, aspects of employment with survival values for human life.Furthermore, indigenous people in the local communities have different knowledge, practices and attitudes towards livestock medical healthcare.Besides, these ethnoveterinary ailments are controlled and prevented by various medicinal plant species, it is important to plan and apply implementation against specific ailments of livestock healthcare systems and their yield improvement [32][33][34].The reason is that the owners of livestock and semi-pastoralists in the Soro District have rich indigenous knowledge and ethnoveterinary practices of herbal medicines and the use of medicinal plants for treating various specific livestock ailments.However, the inherited indigenous knowledge of the individuals varied with gender, age, literacy level, distance between humans and plants, knowledgeable and local informants, and agroecology.
The gender differences showed that males (about 65.89%) have rich information, inherited knowledge and healing practices on the use of livestock herbal medicinal plants on average (Table 3) compared with females (34.11%).This agrees with the findings reported from different parts of Ethiopia [6,32,35,36].In addition, Yirga et al. [37] also reported similar outcome information about 100% of herbal practitioners being males; similarly, 94.05% was reported by Yigezu et al. [35].Abroad in China, the majority of the traditional livestock medicine practitioners relatively 56.7% were also dominated by males [38].However, this result of the current study analysis, contrasting the findings of Yineger et al. [39], showed that female herbal practitioners were as knowledgeable as males.Elderly respondents (i.e.highly experienced older informants) quoted and knew more ethnoveterinary plant species on average than adults and youngsters; however, their differences were statistically insignificant (P > 0.05), and the findings did not agree with those of [32,35], whereas educated informants shared and informed more knowledge on herbal medicine than the non-educated informants (Table 3), which was highly significant (P < 0.05) and might enhance the application of modern medicine practices due to written information rather than historical telling.These findings also disagree with those of the same authors.Similarly, there was a significant difference in medicinal plants reported from distantly rather than nearby to the main town.This is due to the fact that most of the informants were far from the veterinary healthcare centre, and they relied more on MPs to cure their livestock ailments; they were also highly significant among key respondents compared to general respondents.Because of this, more elder informants were involved in key informants than youngsters, which might increase the rate of local knowledge and biodiversity loss and stop the progress and continuity of knowledge from elders to future generations, likewise the study by Wondimu et al. [40].Similarly, as observed, indigenous knowledge is disappearing due to most knowledgeable descendants dying without proper documentation of their knowledge, as reported by the same author.Even though a higher average number of medicinal plants were reported from Dega than from Woinadega and Kola, the difference was statistically not significant (P = 0.112; P ≥ 0.05); in this way, most informants can share indigenous knowledge information from different agroecologies.
In the various current study sites, the most informed herbalists were more men than women, with more herbal medicine practices that were related to various parts of Ethiopia [32,33]; the reason is that most females take care of their children in their houses more than males; usually, they are culturally household owners with home activities more than males who work near and far from their living houses [35,41], and shared more experienced information than females.In addition, males had opportunities to gain more enriching indigenous knowledge from their colleagues as well as the elders because they had the freedom to move from place to place.In addition to this, most experienced herbalists have the choice to transfer their indigenous knowledge to the preferable boy or mystery-holding girl when they approach death [42,43].The study also agrees with the result of [35], and it indicated that about 90% of livestock were treated by male owners rather than female owners with traditional medicines.Furthermore, another study also supports the output of this discovery [6,8].This finding refers to the unequal knowledge distribution among genders, which disagrees with the study of local knowledge of medicinal plants by [32], in the world, which stated that females gained and inherited more knowledge than males [44]; the differences are due to the culture of the society and the related intellectual achievements and interests in the various countries.
Different agroecological features, ages and vegetation differences in the study area contribute to diverse medicinal plants under varied agroecological and weather conditions.For example, from Shonkola kebele, a Mountain Shonkola forest patch of dry evergreen Afro-Montane Forest and Grassland complex vegetation types (DAF), the species Agarista salicifolia, Oldeania alpina, Cordia africana, Erica arborea, Calpurnia aurea, Carissa spinarum, Clutia abyssinica, Euclea divinorum, Gymnosporia arbutifolia, Pentanema confertiflorum, Juniperus procera, Olea europaea subsp.cuspidata, Maesa lanceolata, Prunus africanus, Afrocarpus falcatus and Spiniluma oxyacantha were some of the collected multipurpose medicinal indicator plant species; some species of Combretum-Terminalia vegetation types are Combretum molle, Oncoba spinosa and Terminalia brownii; from riverine plant species such as Albizia schimperiana, Apodytes dimidiata, Croton macrostachyus, Erythrina abyssinica, Millettia ferruginea, Olea welwitschii, Olinia rochetiana, Phoenix reclinata, Vepris nobilis and Scherebra alata; from the Acacia-Commiphora wood land forest patch area, plant species like Balanites aegyptiaca, Piliostigma thonningii and Ximenia americana were collected, where all representatives have various uses in the different local communities using different traditional knowledge in the three different agroecologies.Thus, the presence of this enormous traditional medicinal plant species in this current finding is highly important to sustain and continue indigenous knowledge with associated attributes, including multi-purpose plant species in natural habitats.Which prevent the loss of vegetation cover from the forest patches as well as elsewhere and increases the status of ethnoveterinary medical plant species, indigenous knowledge, herbal practitioners and wild edible plant species.The presence of this rich traditional knowledge and plant diversity among the people in the study area, the Soro people, could help to maintain and manage livestock health, food security and sovereignty, as well as conserve their foods for human beings against different livestock ailments.Although these knowledge practices are linked to the presence and sustainable continuity of ethnoveterinary traditional knowledge through the linkage of modern medicine and wild food plants with associated traditional knowledge for future generations.In the study area, the revitalizing lek linked to folk veterinary practices could be a concrete tool for promoting food sovereignty and traditional livestock healthcare, which can contribute to improving livestock health with food security.This also enhances livestock food security and provides many ecological transition advantages by increasing biodiversity and environmental balance.
Moreover, in developing countries, traditional medicine plant species have been indicated as being the most easily affordable and accessible to treat different types of veterinary ailments [45][46][47] and to use for economic purposes.The findings of the diverse use of ethnoveterinary plant species and the use of dominant families collected from high, mid and low lands were relatively comparable with the findings of other studies in different study areas of Africa, including Ethiopia and other world communities.For instance, in Ethiopia in the Dawuro Zone, Southern Ethiopia, local communities utilized, 103 EVMPs under 47 families for treatment of different LsAs; at the National Park of the Bale Mountains and adjacent areas, 74 medicinal and other multipurpose plants under 37 families were documented for treating 25 ailments [39]; in Sekota and Lalibela districts, 74 medicinal plants (MPs) under 31 families were also reported in four districts of Jimma Zone, Ethiopia, to treat 22 ailments [35], 53 medicinal plants under 31 families were documented for treating 22 different livestock ailments [48], with significant knowledge differences between gender, key and general participants, rural and urban inhabitants and informant age categories.
Information on ICFs, FL and PR values of documented medicinal plants would be necessary for future conservation priority species identification, antimicrobial activity and phytochemical studies, whereas direct matrix ranking exercise values are also useful impact factors to call urgent conservation attention to those locally threatened multipurpose livestock medicinal plants in the study area through anthropological activities [48].
Another study conducted in North Shewa, Ankober District 51 EVMPs under 35 botanical families and 50 genera to treat 33 different ailments were documented and published by [32], 49 EVMPs in Ada'a District of Afar Regional State to treat various livestock ailments [49], 48 EVMPs that belonging to 35 families used to treat 22 livestock health constraints in Dabo Hana District, in Western Ethiopia [50].Similarly, other studies reported 34 LsMPs under 23 families for the treatment of 22 livestock ailments in Enarj Enawga District, East Gojjam Zone [6].Moreover, the findings of the current study in Southern Ethiopia, Soro District Hadiya Zone documented relatively more varied numbers of livestock medicinal plants [132 LsMPs] under 61 families and 120 genera and associated indigenous knowledge to treat various veterinary ailments (about 50 ailments; Table 8) to prevent their impact on the livestock population.Also, varied agroclimatic plant species were reported, and the same medicinal plants were also used to control and treat different ailments in the three climatic conditions of the study sites.Some of the documented LsMP species in Soro District were similarly reported in other ethnoveterinary studies conducted in various parts of Ethiopia.
In this current study 132 of documented livestock medicinal plants, 29 species were reported by Temeche and Adeladlew [5] in the review status of ethnoveterinary medicine in Ethiopia; 29 species were reported in the National Park of the Bale Mountains and adjacent areas Yineger et al. [39]; 28 species by Yigezu et al. [35]; 25 species in Abergelle, Sekota and Lalibela districts of Amhara region, Northern Ethiopia by Assefa and Bahiru [48]; 24 species in selected Districts of Southern Ethiopia by Eshetu et al. [51]; 23 species from Ankober District, North Shewa Zone Amhara Region by Lulekal et al. [32]; 21 species from Ensaro District, North Shewa Zone [52]; 20 species from Wolmera District, Oromia Region [11]; 19 species by Tadesse and Dereje [4]; 16 species of Ethiopian medicinal plants for veterinary healthcare [9]; 15 species by Mesfin et al. [14]; 14 species from Leka Dullecha District, Western Ethiopia [53]; 13 species from Seharti-Samre District, Northern Ethiopia [7]; 12 species from Enarj Enawga District, East Gojjam Zone [6]; 11 species in the study of southern African medicinal plants [54]; nine species in South Wollo Zone [55]; six species in both Mojana Wodera District, Central Ethiopia [36] and Ada'ar District, Afar Region [49] were similarly well documented.These findings indicated that the widespread use of livestock medicinal plant species was indicated as LsMPs and associated local knowledge in preventing and controlling various veterinary ailments in different parts of Ethiopia.Furthermore, these traditional medicinal plant species are used to treat domestic livestock ailments in different geographical locations.It disseminates indigenous knowledge more widely across the community's geographical sites.Some of the ethnoveterinary plant species were widely used and popular in the Soro District to treat various specific livestock ailments.For example, Momordica foetida was used to treat and manage diarrhoea, aspiration pneumonia, blackleg, anthrax, LSD, actinobacillosis (wooden tongue), and Withinia somnifera was used to treat and manage bloat, blackleg and arthritis (gouge or mondymorning ailment).Similarly, other ethnoveterinary practitioners used Withania somnifera for the treatment of listeriosis and blackleg, which was also reported in different parts of Ethiopia, in Ada'ar District, Afar Region [49], and Ankober District, Amhara Region [56].Another study, according to Tolossa et al. [57], also reported Momordica foetida ethnoveterinary medicinal use and management of blackleg in South Omo, Southern Ethiopia.This widespread use of the ethnomedicinal plant species in these different cultural groups of Ethiopia suggests their effectiveness in alleviating blackleg and deserves pharmacological investigations.Cucumis ficifolius was the other important recommended plant species used against anthrax, rabies, babesiosis, blackleg, dinegetegna and venign tumours in the study area.It agrees with the findings of other ethnoveterinary surveys conducted in different parts of Ethiopia, which witnessed the common use of C. ficifolius for the treatment of blackleg, according to Yigezu et al. [35], and rabies by Tadesse and Dereje [4].Moreover, Nicotiana tabacum was used in the management of nasal bote/leech, snake bite and insects' infection infestations in Soro District.Similarly, in Libo Kemkem District of the Amhara Region, Chekole et al. [58] suggested in a similar way the use of N. tabacum to treat leech infection, which agrees with Teklay et al. [59] in Kilte Awulaelo District, Tigray Region, using leech.
The majority of the rich ethnomedicinal plants were collected and reported from wild habitats (79.54%), which relatively agreed with the findings of the wild plant sources (78.79%) reported by Abebe [36] and 81.08% by Yigezu et al. [35], also, some were collected from agricultural croplands, and another few plant species such as Antherica sp, Asparagus africanus and Securidaca longepedunculata were reported from the market survey in Soro District that were highly commercialized for the purpose of livestock medicines.In contrast in other parts of Ethiopia, Embelia schimperi and Withania somnifera were documented marketable plant species in the local markets of the Ankober District, North Shewa [32].In addition, some numbers of food, food spices and condiments were reported from market survey of Soro District, plant spices, of these Trigonella foenum-graecum sold in the findings of Teklay et al. [59] in Kilte Awulaelo District, Tigray Region State reported similar species from a market survey that were sold as sources of food and spice.Moreover, a few others, indirectly from other ethnobotanical uses, like Artemisia absinthium mainly sold by women, whereas Nicotiana tabacum sold from other social drug smoking in the market Jajura market by men traders.Moreover, our analysed results data of Soro District showed that Asteraceae ranked 1st, Fabaceae and Lamiaceae (2nd), Solanaceae (4th), Rubiaceae (5th), both Euphorbiaceae and Poaceae (6th), Amaryllidaceae and Rutaceae (8th) were dominant and frequently reported medicinal plant families (Fig. 2) and share livestock medicinal values in the country; in addition, in the world.The study similarly reported that Asteraceae, Lamiaceae and Euphorbiaceae were dominant families in Ethiopia which similarly studied by another investigators [6,35,39,52,60,61].Similarly, Asteraceae, Fabaceae and Solanaceae were dominant families in the study [36].Whereas Asteraceae was the most commonly used and diversified medicinal plant family, which in line with the findings of [11,14,32,34], it was one of the world leading largest families.
In Soro District, herbs were dominant finding and used for various medicinal preparation purposes by indigenous people, followed by shurbs (Fig. 1) and similarly reported by [6,39,61], and this information might be important for the survival of shrub and tree species from excessive harvesting.In addition, leaves (43.18%) were the most frequently utilized, preferable, easily available and simplicity in remedy preparation, and dominant harvesting plant parts in the current study for livestock medicinal use, and which agrees with many other studies in Ethiopia [11,32,35,36,48,[61][62][63][64] and also in South Africa [65].Moreover medicinal practitioners use this highly available leaf part rather than root and bark parts to decrease the loss of plants from natural habitats [39,66,67].
In the current study most herbal medicine preparations were done mainly by decoction, concoction and crushing (Fig. 5); many livestock medicinal local practitioners used fresh plant parts to heal effectively and efficiently, mainly in the form of decoction using a single species followed concoction using two or more medicinal plant species to treat a single ailment, and this was disagreed by [11,39], and agreed with study of [40].In many sites of the study area, like several study areas in Ethiopia, medicinal preparation for use in different applications (Fig. 6) using fresh plant medicinal parts in combination or alone was documented.In addition, those dominantly useable medicinal fresh organs might be retained secondary bioactive metabolites that occurred more in fresh parts than in dry matters [32,39,61,68,69].In the current study most herbal medicine preparations were done mainly by mixing a single, with two and more medicinal plant parts (Fig. 2) to treat a single ailment with cold and warm water, and using other locally available types of additives or without additives, which was similarly reported in other study parts [70,71].The oral treatment route is the main route of remedy administration in the study area (Fig. 3) and agrees with finding of other study parts of Ethiopia [5,6,39,48,49,62,70,72], followed with dermal treatment which also agreed with [5,6,39] in common.
Informant consensus factor (ICF = 0.72, 0.71, and 0.70) showed the most prevalent ailments in each category in the study area and the least prevalent ailments with smaller ICF values had effective healing potential plant species (Table 4).Similarly, Lulekal et al. [32] reported a high informant consensus factor (0.71) to treat gastrointestinal ailments with popular curative plants.According to Sharma et al. [73] also similarly have shared high ICF for dermatological ailments that have a high incidence of livestock ailments and are treated using high curative potential plant species.Since values of high ICF are indicative of the selection of target plant species for the sake of future therapeutic drugs and other useful photochemical compounds [29].Likewise in the Soro District, curative potential plants were used to treat the most prevalent livestock dermatological ailments for instance Foot and Mouth Disease/Ailment and Lumpy Skin Disease/Ailment were treated using Croton macrostachyus, blackleg treated by Cyathula uncinulata and ailment of bat urine by Momordica foetida; among gastro-intestinal potential ailment, diarrhoea, abdominal pain, acidiosis, anthrax, actinobacillosis (wooden tongue), telleriosis and New Castle Disease/Ailment (NCD/A) were treated by different healing effective plants discussed on preference ranking and FL values as well as a series respiratory infection like aspiration pneumonia, pasteurellosis (livestock TB) treated by Pentanema confertiflorum and Stephania abyssinica.According to Lulekal et al. [32] plants with higher informant consensus values are thought to have more secondary bioactive metabolites for frequently occurring livestock ailments.These ranking activities showed that indigenous people highly depend on ethnoveterinary medicinal plants, even though the distribution of modern healthcare systems is rapidly increasing.The highest FL values (Table 5) among curative medicinal plants were accounted for Datura stramonium (100%) is highly effective to treat rabies from the neurological ailment, Dodonaea viscosa subsp.angustifolia (100%) in treating gastrointestinal PPR, A.africanus (100%) to treat evil eye/evil spirit; Croton macrostachyus (98%) for FMD among dermatological ailments, which is in line with the studies of [32,35,74].Moreover, it indicated that Croton macrostachyus has the highest dominantly reported healing potential of plant species to treat dermatological ailments, and it was used to treat a variety of ailments alone or with combinations of other medicinal plants and additives in the study area.Others medicinal plant species Albizia schimperiana (96%) was used to treat aspiration pneumonia, and Brugmansia suaveolens to treat diarrhoea (92%), and they were the most important potential medicinal plants reported in the study area.FL is an important botanical tool to measure potential medicinal plants with the healing ability of the individual plant species and provide good information for future pharmacological investigation techniques, and it supported by [75].Also, in preference ranking exercise (Table 6), C. macrostachyus also reported the highest (86%) and most efficacious to treatment Lumpy Skin Disease/Ailment followed Ximenia americana (75%) and Allium sativum (74%).In the study area, there were significant knowledge differences in ethno-therapeutic practices to protect livestock health between males and females, key and general participants, rural and urban inhabitants, and different age groups of informants (Table 3).Information on ICF, FL, and PR values of documented ethnoveterinary medicinal plants would be necessary for future antimicrobial activity and phytochemical studies, whereas DMR exercises (Table 7) also call for urgent conservation attention to those locally or nationally threatening multipurpose livestock medicinal plants in the study area through anthropological activities.

Conclusion
This study showed that Soro District has diverse traditional medicinal plants used for treating various livestock ailments, using indigenous and local ethnoveterinary knowledge, and ethnoveterinary skills and practices.In this investigation, 132 ethnoveterinary medicinal plants were documented to treat 50 livestock ailments.The data on medicinal plant species were collected, confirmed and documented from different study sites (n = 13) in the District that help to defend against various types of potential livestock ailments and are used for various functions.Most of them were used to treat a single livestock ailment; others were used to treat poly-ailments with different plant parts prepared alone or poly-medicinal plants with the use of other additives or without additives.Through the study in the selected kebeles, Carduus schimperi and Clutia abyssinica were cited for use as antidotes in the event of severe reactions of poisonous plant species eaten by livestock.In addition, they are also important medicinal plant species.The majority of the medicinal plants were reported from the natural wild habitats in different agroecological areas.Some were reported in the localities of agricultural lands and stalling vendors of an open local market, for example, Antherica sp., A. africanus, Securidaca longepedunculata, and some others were from market-stalling sites for spices that were sold as food, food flavours or indirectly sold by women for medicinal uses that were brought from their rich homegardens, commonly Artemisia absinthium, Allium sativum, Coriandrum sativum, Foeniculum vulgare, Ocimum basilicum, and Ruta chalepensis.Among food products: Ensete ventricosum, Eragrostis tef, Hordeum vulgare and Zea mays; vegetable foods of Colocasia esculenta; and stimulants: Coffea arabica and Nicotiana tabacum.Moreover, knowledge use in medicinal plants exists with significant differences among parameters.Ethnobotanical tools (ICF, FL and PR) provided good information for setting more conservation priorities, remedy utilization and future anti-microbial activities on claimed highest-ranked potential curative medicinal plant species, making them more essential inputs for future therapeutic drug inquiries to develop modern medicines.DMR exercises on use attributes hinted at the need for setting up conservation priority for plant species such as Prunus africana, Combretum molle, Afrocarpus falcatus and Olea welwitschii, and species reported in preference ranking (PR) from homegardens A. sativum and Croton macrostachyus in woinadega, Ximenia americana in kola, and Juniperus procera more from dega agroecology.In the FL, Datura stramonium against rabies, D. angustifolia against PPR, A. africanus against evil eye (evil spirit, including other ailments) and C. macrostachyus efficacy to treat FMD and potentially promising species with respect to others treating different livestock ailments were recoded.These important ethnoveterinary plants were found under various threats as a result of various anthropological and environmental factors, and hence conservation attention is required to prevent the decline of these flora.Also, it calls for researchers to raise awareness with the consultation of community-targeted traditional practitioners, including agriculturalists and ethnobotanists, and ecologists to adopt lifestyles focussed to sustainable use.Therefore, this would enrich and save diverse multipurpose medicinal plants with associated indigenous herbal knowledge in the study area.Most of the identified and confirmed ethnoveterinary plant species in the current study could be effective for future phytochemical and pharmacological activities, and they have also warranted the future profile of the plant species reported by indigenous people.

Fig. 1 Fig. 2
Fig. 1 Growth habits of livestock medicinal plants in Soro District

Fig. 3
Fig. 3 Parts of livestock medicinal plants used in Soro District.Note: Key: L = leaf; Se = seed; R, L = root or leaf; L, Fr = leaf or fruit; Sb = stem bark; L, St = leaf or stem; Rh = rhizome; L, Wh = leaf or whole part; Bu = bulb; L, Sb = leaf or stem bark and No = number

Fig. 4
Fig. 4 Reported routes of administration of livestock medicinal plants medicines.Note: % = per cent; no = number

Table 2
Informants demographic background characteristics

Table 3
Statistical test of significance using one-way ANOVA on the average number of ethnoveterinary medicinal plants reported among various variables on the data collected from Soro District

Table 4
Values of informant consensus factor of ethnoveterinary medicinal plants used by communities of Soro District for treating certain livestock aliments

Table 5
FL values of 20 most frequently used ethnoveterinary medicinal plant species of Soro District

Table 6
Ranking values of ten most preferred medicinal plant species widely used to treat the dermatological ailment known as Lumpy Skin Disease (LSD) Key information: Total scores in the table indicated the ranks which assigned to ethnoveterinary medicine rely on their efficacy with highest number 10 and the least one to treat a given ailment

Table 7
DMR scores of five ethnomedicinal plants used to treat livestock ailments by ten key informants M Medicine, Fo Fodder, Con & Ut Construction and utensils, Sha Shade, Fw Firewood, Ch Charcoal

Table 8
Livestock ailments recorded in the study area(Soro District)

Table 9
List of medicinal plants for treating livestock ailments in Soro District with the mode of preparations and applications

Table 9 (
continued) livestock TB in bovines; Ensete ventricosum was used to treat placental remain of bovines, sheep and goats; diarrhoea, bloat and trauma (broken bones) of all livestock; and toxicity in poisoned livestock of bovines, sheep and goats; Solanum incanum was used to treat actinobacillosis and actinomycosis of bovines; bloat, swelling and conjunctivitis of all livestock; Stephania abyssinica was used to treat bloat, diarrhoea and rabies in all livestock; anthrax in bovines, sheep and equines; and pasteurellosis in bovines.